Mower deck insert

ABSTRACT

A mower comprises a deck comprising an underside cavity with a first interior profile; and a deck insert mounted within the underside cavity. The deck insert has a deck insert interior with a second interior profile different than the first interior profile.

CROSS-REFERENCE TO RELATED PATENT APPLICATIONS

The present application is a continuation application claiming priorityunder 35 USC Section 120 from co-pending application numberPCT/US15/44730 filed on Aug. 11, 2015 and entitled MOWER DECK INSERT byDerra et al., the full disclosure of which is hereby incorporated byreference. Application number PCT/US15/44730 claims priority to U.S.provisional application Ser. No. 62/035,606 filed on Aug. 11, 2014 byDerra et al. and entitled MOWER DECK INSERT, the full disclosure ofwhich is hereby incorporated by reference.

BACKGROUND

Mowers typically include one or more rotating blades and a deck whichcovers the rotating blades. Mower decks and blades that produce enoughair flow for good quality of cut are often noisy and inefficient andrequire a lot of power to drive the blades.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded perspective view of an example mower deck and adeck insert in an inverted orientation.

FIG. 2 is a perspective view of the deck insert of FIG. 1 in an uprightorientation.

FIG. 3 is a sectional view of the deck insert of FIG. 2 taken alonglines 3-3.

FIG. 4 is a perspective view of an example cutting unit comprising theinverted deck insert of FIG. 1 within the mower deck and includingblades.

FIG. 5 is a top view of an example cutting blade of the cutting unit ofFIG. 4.

FIG. 6 is a side view of the cutting blade of FIG. 5.

FIG. 7 is a graph comparing bulk deck airflow as a function of totalradial weighted net frontal area for blades for an example cutting unitof FIG. 4 and the prior art cutting unit of FIG. 5.

FIG. 8 is a graph of sound power as a function of total radial weightednet frontal area for the blades of the cutting unit of FIG. 4.

FIG. 9 is a perspective view of an example mower comprising the cuttingunit of FIG. 4.

FIG. 10 is a perspective view of another example inverted mower deck.

FIG. 11 is a sectional view of the mower deck of FIG. 10 taken alonglines 11-11.

FIG. 12 is a perspective view of an inverted mower deck and cuttingblades.

FIG. 13A is a perspective view of an example deck insert mounted to themower deck of FIG. 12.

FIG. 13B is another perspective view of the deck insert of FIG. 13Amounted to into the inverted mower deck of FIG. 12.

FIG. 13C is a perspective view of the deck insert of FIG. 13A in aninverted orientation.

FIG. 13D is another perspective view of the deck insert of FIG. 13A inan inverted orientation.

FIG. 13E is a perspective view of the deck insert of FIG. 13A in anupright orientation.

FIG. 14A is a perspective view of another example deck insert mounted tointo the mower deck of FIG. 12.

FIG. 14B is another perspective view of the deck insert of FIG. 14Amounted to into the inverted mower deck of FIG. 12.

FIG. 14C is a perspective view of the deck insert of FIG. 14A in aninverted orientation.

FIG. 14D is another perspective view of the deck insert of FIG. 14A inan inverted orientation.

FIG. 14E is a perspective view of the deck insert of FIG. 14A in anupright orientation.

FIG. 15A is a perspective view of an example deck insert mounted to intothe mower deck of FIG. 12.

FIG. 15B is another perspective view of the deck insert of FIG. 15Amounted to into the inverted mower deck of FIG. 12.

FIG. 15C is a perspective view of the deck insert of FIG. 15A in aninverted orientation.

FIG. 15D is another perspective view of the deck insert of FIG. 15A inan inverted orientation.

FIG. 15E is a perspective view of the deck insert of FIG. 15A in anupright orientation.

FIG. 16A is a perspective view of an example deck insert mounted to intothe mower deck of FIG. 12.

FIG. 16B is another perspective view of the deck insert of FIG. 16Amounted to into the inverted mower deck of FIG. 12.

FIG. 16C is a perspective view of the deck insert of FIG. 16A in aninverted orientation.

FIG. 16D is another perspective view of the deck insert of FIG. 16A inan inverted orientation.

FIG. 16E is a perspective view of the deck insert of FIG. 16A in anupright orientation.

FIG. 17A is a perspective view of an example deck insert mounted to intothe mower deck of FIG. 12.

FIG. 17B is another perspective view of the deck insert of FIG. 17Amounted to into the inverted mower deck of FIG. 12.

FIG. 17C is a perspective view of the deck insert of FIG. 17A in aninverted orientation.

FIG. 17D is another perspective view of the deck insert of FIG. 17A inan inverted orientation.

FIG. 17E is a perspective view of the deck insert of FIG. 17A in anupright orientation.

FIG. 18A is a perspective view of an example deck insert mounted to intothe mower deck of FIG. 12.

FIG. 18B is another perspective view of the deck insert of FIG. 18Amounted to into the inverted mower deck of FIG. 12.

FIG. 18C is a perspective view of the deck insert of FIG. 18A in aninverted orientation.

FIG. 18D is another perspective view of the deck insert of FIG. 18A inan inverted orientation.

FIG. 18E is a perspective view of the deck insert of FIG. 18A in anupright orientation.

FIG. 19 is a bottom perspective view of another example deck insert.

FIG. 20 is a sectional view of a portion of the deck insert of FIG. 19.

FIG. 21 is a sectional view of another portion of the deck insert ofFIG. 19.

FIG. 22 is a fragmentary sectional view of a portion of the deck insertof FIG. 19 supported within an example deck.

FIG. 23A is a fragmentary sectional view of another portion of the deckinsert of FIG. 19 supported within the example deck.

FIG. 23B is a fragmentary sectional view of another example deck insertwithin another example deck.

FIG. 24A is a fragmentary sectional view of another example deck insertsupported within another example deck.

FIG. 24B is a fragmentary sectional view of another portion of the deckinsert of FIG. 24A.

FIG. 24C is a top view of an example deck serving as a skeleton forsupporting another example underlying deck insert.

FIG. 25 is a fragmentary sectional view illustrating one examplearrangement supporting an example deck insert.

FIG. 26 is a bottom perspective view of an example deck.

FIG. 27 is a top view of another example deck insert for use with thedeck of FIG. 26 for rear bagging.

FIG. 28 is a front perspective view of the deck insert of FIG. 27.

FIG. 29 is a top view of another example deck insert for mulching.

FIG. 30 is a sectional view of a portion of the deck insert of FIG. 29.

FIG. 31 is a bottom view of an example deck insert module.

FIG. 32 is a bottom view of an example deck assembly comprising themodule of FIG. 31 mounted beneath example deck.

FIG. 33 is a bottom view of another example deck assembly comprising apair of the modules of FIG. 31 mounted beneath another example deck.

FIG. 34 is a bottom view of another example deck assembly comprisingthree of the modules FIG. 31 beneath another example deck.

FIG. 35 is a bottom perspective of the deck assembly of FIG. 34.

DETAILED DESCRIPTION OF EXAMPLES

FIGS. 1 and 2 illustrate an example mower deck insert 20. FIG. 1illustrates an underside of mower deck insert 20 withdrawn from mowerdeck 4 while FIG. 2 illustrates the upright operational orientation ofmower deck insert 20 removed from mower deck 4. Mower deck insert 20 isconfigured to be removably mounted to and held or retained within mowerdeck 4 so as to surround rotating blades. In other implementations,mower deck insert 20 is permanently mounted or fixed within mower deck4. In one implementation, mower deck 4 and mower deck insert 20 are foruse on a riding mower. In another implementation, mower deck 4 and mowerdeck insert 20 are for use on a walk-behind self-propelled or pushmower. In yet another implementation, mower deck 4 and mower deck insert20 are for use on a zero turn radius (ZTR) mower. In yet anotherimplementation, mower deck 4 and mower deck insert 20 are for use on awide area walking mower. As will be described hereafter, mower deckinsert 20 protects the underside of mower deck 4 and additionallyprovides mower deck 4 with a different interior profile that offersgreater or equal airflow with less noise and improved efficiency (i.e.less power required to drive the blades). In one implementation, mowerdeck insert 20 has an interior profile different than the interiorprofile of the original mower deck, wherein mower deck insert 20 isspecifically shaped to optimize side discharge, mulching, or baggingperformance. In another implementation, the mower deck insert 20 isspecifically shaped to optimize mowing performance in atypical mowingconditions caused by grass type, density, length and moisture content aswell as, climate and seasonal changes (e.g. fall leaf cleanup).

Mower deck 4 comprises a deck for being mounted beneath a chassis of atractor unit so as to enclose a pair of rotating cutting blades. Mowerdeck 4 has an underside cavity 6 with an interior profile 8. Forpurposes of this disclosure, the phrase “interior profile” refers to theshape and proportionate size of the interior surfaces that directairflow produced by the rotation of the cutting blades. In the exampleillustrated, mower deck 4 comprises a ceiling 10 and sidewalls 12 thatform two side-by-side cutting chambers 14A, 14B (collectively referredto as chambers 14), a discharge passage 15 extending alongside cuttingchamber 14A and a discharge opening 16 through which cut grass isdischarged from chambers 14. Unfortunately, the interior profile of deck4 may not promote efficient airflow, optimize mowing performance, orreduce noise.

Mower deck insert 20 comprises an additional structure and is eitherremovably or permanently mounted to the underside of deck 4, wherein thestructure has an interior profile different than the interior profile ofdeck 4. In one implementation, mower deck insert 20 is mounted to theunderside of deck 4 using mechanical attachment with fasteners, such asscrews, bolts, clips, “Christmas trees” and the like, or variousfittings. In another implementation, mower deck insert 20 is mounted tothe underside of mower deck 4 using a multitude of bonding processesincluding adhesives and coatings. In yet another implementation, mowerdeck insert 20 is mounted to the underside of mower deck 4 throughwelding, latches or other securement mechanism.

In one implementation, mower deck insert 20 is formed from one or morepolymeric materials or plastics, providing mower deck insert 20 withflexibility and enabling mower deck insert 20 to bend or flex to fit toan existing mower deck 4 without substantially increasing the weight ofthe cutting unit of the mower. Polymeric forming processes for the mowerdeck insert 20 could include thermoforming, injection molding, blowmolding, rotational molding, and polystyrene foam (or alternativefunctional equivalent material) coated with a polymeric material. Inother implementations, mower deck insert 20 is formed from fiberglass ora stamped metal, such as steel or aluminum. A stamped metal deck insertmay be coated or treated with a chemical compound (such as boronnitride) to provide wear resistance and/or reduced friction/anti-stickproperties. In yet other implementations, mower deck insert 20 is formedfrom a foam material or an alternative functional equivalent material(such as wood), wherein at least the underside of the material is coatedwith a wear resistant coating and/or a low friction/anti-stick coating,such as polytetrafluoroethylene (TEFLON), boron nitride, orpolyurea/polyurethane. In addition to providing wear resistance and/orlow friction, the coating may also be used to bond the mower deck insert20 to the mower deck 4.

In some implementations, deck insert 20 may be employed permanently tothe mower deck. In some implementations, deck insert 20 is removablymountable to mower deck 4, facilitating easy replacement of deck insert20 when deck insert 20 becomes worn or damaged or when a differentinterior profile is preferred to optimize performance for a specificapplication need, such as side-discharging, bagging, mulching, oratypical mowing conditions. Differently configured cutting blades can beused with different interior profiles to provide optimal airflow and/orreduced noise characteristics and/or reduced power consumptioncharacterisitics, for a specific application need. A reduced powerconsumption characteristic is especially desirable if the blade drivesystem is a battery-powered electric motor. Because deck insert 20extends on the inside of deck 4, deck insert 20 protects deck 4 whichnow serves as a backing, substrate or base structure. In someimplementations, sound insulating material can be used between deckinsert 20 and deck 4. Deck insert 20 being of favorable shape forenhanced airflow with less drag and turbulence, reduces unwanted grassbuildup on the underside of the mower deck, usually experienced whencutting wet grass. This effect can be enhanced via use of reducedfriction/anti-stick coatings in combination with the favorable deckinsert 20 shape. Deck insert 20 being of favorable shape for enhancedairflow and vacuum generation reduces or eliminates blow-out fromunderneath the deck lip, thus improving cut-quality of the mowing unit.

In the example illustrated, mower deck insert 20 comprises a panel orbody 22 forming or providing discharge passage 24, far side cuttingchamber 26 and nearside cutting chamber 28. Discharge passage 24comprises an elongated channel formed on an underside of body 22 andhaving a ceiling 34 (appearing as a floor in the inverted mower deckillustrating FIG. 1) bound on opposite sides by sidewalls 36, 38.Discharge passage 24 extends tangent to chambers 26, 30 and terminatesat a discharge opening 32. Discharge passage 24 receives airflowgenerated by rotating blades within each of chambers 26, 28, along withcut grass and other materials. Discharge passage 24 directs the airflowand the cut material through and out discharge opening 32. In oneimplementation, discharge opening 32 disperses grass clippings and othercut material. In another implementation of discharge opening 32 directsthe grass clippings and other cut material into a collection volume suchas a mower bag. In the example illustrated in which cut vegetation isdispersed through discharge opening 32, discharge opening 32circumferentially extends about axis 72 by at least 75 degrees todischarge the increased rate at which air and cut vegetation are drivenby the cutting unit including deck insert 20.

Far side cutting chamber 26 comprises a cavity formed on the undersideof body 22 for receiving and shielding the far side cutting blade (notshown). Far side cutting chamber 26 comprises hub 40 and axial scroll42. Hub 40 comprises a portion of body 22 centrally located withinchamber 26 and providing a blade mounting portion 44 to rotatablysupport the far side cutting blade for rotation about far side axis 46.In the example illustrated, blade mounting portion 44 comprises anaperture extending through hub 40 of body 22 through which a blade shaftor blade bearing assembly extends.

Axial scroll 42 comprises a channel helically extending about axis 46.Axial scroll 42 comprises an upper surface 50 (appearing as a floor inthe inverted deck of FIG. 1) bound by sidewalls 52, 54. Upper surface 50axially scrolls about axis 46 such that scroll 42 is shallowest and suchthat upper surface 50 is vertically lowest at start region 56 of scroll42 and such that scroll 42 is the deepest and vertically highest at endregion 58, the junction between scroll 42 and discharge passage 24. Inthe example illustrated, upper surface 50 smoothly blends with or rampsinto ceiling 34 of discharge passage 24 at end region 58. In otherimplementations, the junction between upper surface 50 and region 58 anddischarge passage 24 may have a distinctive ramp or step.

In the example illustrated, scroll 42 extends at least 180° andnominally 240° about axis 46. Upper surface 50 of scroll 42 has scrollheight change of less than 2 inches from start region 56 to end region58. With such an example, a sufficiently large amount of airflow isproduced to move grass clippings and other cut material while at thesame time maintaining a low profile for the deck insert 20, allowingdeck insert 20 to better fit beneath a mower chassis. In otherimplementations, scroll 42 may scroll about axis 46 by other extents andhave a different scrolling rate with a different height change.

Near side cutting chamber 28 comprises a cavity formed on the undersideof body 22 for receiving and shielding the near side cutting blade (notshown). Near side cutting chamber 28 comprises hub 60 and axial scroll62. Hub 60 comprises a portion of body 22 centrally located withinchamber 28 and providing a blade mounting portion 64 to rotatablysupport the far side cutting blade for rotation about near side axis 66.In the example illustrated, blade mounting portion 64 comprises anaperture extending through hub 60 of body 22 through which a blade shaftor blade bearing assembly extends.

Axial scroll 62 comprises a channel helically extending about axis 66.Axial scroll 62 comprises an upper surface 70 (appearing as a floor inthe inverted deck of FIG. 1) bound by sidewalls 72, 74. Upper surface 70axially scrolls about axis 66 such that scroll 62 is shallowest and suchthat upper surface 70 is a vertically lowest at start region 76 ofscroll 62 and such that scroll 62 is the deepest and vertically highestat end region 78, the junction between scroll 62 and discharge passage24.

In the example illustrated, scroll 62 extends at least 180° andnominally 240° about axis 66. Upper surface 70 of scroll 62 has scrollheight change of less than 2 inches from start region 76 to end region78. With such an example, a sufficiently large amount of airflow isproduced to move grass clippings and other cut material while at thesame time maintaining a low profile for the deck insert 20, allowingdeck insert 20 to better fit beneath a mower chassis. In otherimplementations, scroll 62 may scroll about axis 66 by other extents andhave a different scrolling rate with a different height change.

Upper surface 70 of scroll 62 feeds into discharge passage 24 at endregion 78 at a height below (above in the inverted view of deck insert20 shown by FIG. 1) the adjacent portion 80 of ceiling 34 of dischargepassage 24. In the example illustrated, end region 78 of scroll 62terminates at a shoulder or step 82 which transitions between the lowerheight of upper surface 70 and the greater height of region 80 ofceiling 34. At the same time, upper surface 70 of scroll 62 at endregion 78 is also at a height below (above in the inverted view of deckinsert 20 shown in by FIG. 1) the height of end region 58 of scroll 42.

FIG. 3 is a sectional view of the upright mower deck insert 20 of FIG. 2taken along line 3-3. As shown by FIG. 3, because upper surface 70 ofscroll 62 at end region 78 feeds into discharge passage 24 at a lowerheight as compared to upper surface 50 of scroll 42 at end region 48,airflow and cut material from near side chamber 28, indicated by dashedarrows 90, are fed into discharge passage 24 below the airflow and cutmaterial from far side chamber 26, indicated by solid line arrows 92. Asa result, mower deck insert 20 vertically partitions the cross-sectionalarea and volume of discharge passage 24: an upper cross-sectional areaor volume for airflow and cut material from far side chamber 26 and alower cross-sectional area or volume for airflow and cut material fromnear side chamber 28. Heavier cut material from far side chamber 26, dueto its longer travel distance, naturally falls into the airflow streamof nearside chamber 28 indicated by arrows 90, rather than falling outof the airflow stream altogether. Because mower deck insert 20discharges airflow from chambers 26, 28 into distinct vertical portionsof discharge passage 24, the airflow streams represented by arrows 92and 90 from chambers 26 and 28, respectively, are less likely tointerfere with one another. As a result, deck insert 20 provides greaterbulk deck airflow, the total airflow exiting deck insert 20 from bothchambers 26, 28 through discharge opening 32. The greater airflowprovided by deck insert 20 more effectively disperses cut materials overthe terrain or more effectively propels cut materials into a collectionvolume carried by the mower. The greater airflow provided by mower deckinsert 20 additionally creates a stronger upward vacuum below deckinsert 20, more effectively lifting uncut grass or vegetation forcutting by the cutting blades.

Because the configuration of mower deck insert 20 offers greater airflowfor a particular pair of cutting blades being rotatably driven at aparticular speed, mower deck insert 20 further facilitates the provisionof a mower cutting unit that produces less noise, for a given airflow.FIG. 4 illustrates an example mower cutting unit 100 which produces lessnoise as compared to existing cutting units producing equivalent amountsof airflow. Mower cutting unit 100 comprises mower deck insert 20, farside cutting blade 102 and nearside cutting blade 104. Far side cuttingblade 102 and nearside cutting blade 104 are rotatably mounted withinchambers 26, 28 with rotation about axes 46 and 66, respectively. Ascompared to mower deck 4, mower deck insert 20 produces similar bulkairflow through discharge opening 32 with less noise.

FIGS. 5 and 6 illustrate an example cutting blade 104 of cutting unit100. In the example illustrated, cutting blade 102 has a same shape andsize as cutting blade 104. In other implementations, cutting blade 102may have other configurations than cutting blade 104. Cutting blade 104comprises central portion 128, cutting edges 130 and lift wings 132.When blade 104 is mounted within chamber 28 of mower deck insert 20,central portion 128 radially extends from axis 66 (shown in FIG. 4) andis configured to rotate below hub 60. Cutting edges 130 are configuredso as to rotate beneath scroll 62 while cutting grass or othervegetation. Lift wings 132 extend adjacent and behind cutting edges 130and are configured so as to displace air and cut material or vegetationto produce airflow about axis 66 in an upwardly angled direction forlift. FIGS. 5 and 6 further illustrate, in broken lines, theconfiguration of cutting blades 122 and 124 of cutting unit 110. Asshown by FIGS. 5 and 6, in one implementation, cutting unit 100comprises cutting blades 102, 104 with lift wings 132 which are reducedin size as compared to the corresponding lift wings of blades 122, 124(shown broken lines). As a result, cutting unit 100 produces less noise.

In one implementation, cutting unit 100 is configured such that cuttingblades 102 and 104 have a combined or total net radial weighted frontalarea AWFnet such that cutting unit 100 outputs bulk airflow throughdischarge opening 32 at a rate of at least 600 cubic feet per minute atstandard condition (SCFM) at a sound power of less than or equal to 104decibels (dB). In another implementation, cutting unit 100 is configuredsuch that cutting blades 102 and 104 have a combined or total net radialweighted frontal area such that cutting unit 100 outputs bulk airflowthrough discharge opening 32 at a rate of at least 700 cubic feet perminute at standard condition (SCFM) at a sound power of less than orequal to 104 decibels (dB), nominally less than or equal to 103.2 dB. Inone implementation, cutting unit 100 is configured such that cuttingblades 102 and 104 have a combined or net radial weighted frontal areaAWFnet and such that cutting unit 100 outputs bulk airflow throughdischarge opening 32 at a rate of at least 340 SCFM plus 70 times thenet radial weighted frontal area AWFnet of blades 102 and 104.

For purposes of this disclosure, the net radially weighted frontal areacomprises the radially weighted frontal area of all the blades of acutting unit. A radially weighted frontal area of a cutting blade iscalculated according to the following: AWF (per side)=Σbihiri/r, whereb=increment width, i=increment, h=rise or drop of increment and r=radiusof increment, examples of which are illustrated in FIG. 7. AWFnet iscalculated according to AWFpos−AWFneg.

FIGS. 7 and 8 graphically compare output of cutting units comprisingmower deck insert 20 having various cutting blades 102, 104 withdifferent radial weighted net frontal areas with the cutting unitillustrated in FIG. 5 having different radially weighted net frontalareas. In the comparison illustrated in FIGS. 7 and 8, cutting units 100and 110 are both two-blade 42 inch decks set at a cut height of 2.5inches. Such comparison is made when each of the cutting blades of thecutting unit 100 and 110 are rotating at 3130 revolutions per minute.

FIG. 7 graphically depicts the bulk deck airflow in SCFM as a functionof total radial weighted net frontal area for cutting unit 100 withmower deck insert 20 and blades 102, 104 as compared to cutting unit 110with mower deck 120 and cutting blades 122, 124. As shown by FIG. 8,cutting unit 100 produces bulk deck airflow at a rate of 341.4 SCFM plusa 71.915 multiple of the total radial weighted net frontal area. Asshown by FIG. 7, in one implementation, cutting unit 100 provided withcutting blades 102, 104 having a total radial weighted net frontal areaof only 4 inches squared produces the same bulk deck airflow as cuttingunit 110 requiring cutting blades 122, 124 to have a total radiallyweighted net frontal area of at least 11 inches squared.

FIG. 8 graphically depicts the sound power or noise level of cuttingunit 100 is a function of the total radial weighted net frontal area ofcutting blades 102, 124. Sound differences due to the differentconfigurations of decks 20 and 120, independent of blade configurationare negligible. As shown by FIG. 8, blades 102, 104 having reduced liftwings 132, when employed in cutting unit 100 and producing a bulk deckairflow 150 (shown in FIG. 8), reduce sound power or noise by at least 3dB and nominally by at least 4 dB as compared to blades 122, 124employed in cutting unit 110 when producing the same bulk deck airflow150 (shown in FIG. 7). As shown by FIGS. 7 and 8, cutting unit 100 withcutting blades 102, 104 reduces noise while maintaining airflowgeneration to maintain the vacuum lifting of the uncut vegetation forcutting and to maintain the discharge characteristics for cutvegetation.

FIG. 9 is a perspective view of an example mower 300 comprising cuttingunit 100. As shown by FIG. 9, mower 300 comprises a riding moweradditionally comprising drive 302 and transmission 304, both of whichare schematically illustrated. Drive 302 supplies power to rotate blades102, 104 (shown in FIG. 4) of cutting unit 100. In one implementation,drive 302 comprises an internal combustion engine. In anotherimplementation, drive 302 comprises a motor, such as an electric motor.

Transmission 304 transmits power or torque from drive 302 to each ofcutting blades 102, 104 of cutting unit 100. In one implementation,transmission 304 comprises a series of belts and pulleys which transmittorque to each of blades 102, 104. In other implementations,transmission 304 may have other configurations such as chain andsprocket or gear train assemblies. As noted above, in otherimplementations, cutting unit 100 and deck insert 20 may alternativelybe utilized in walk behind self-propelled and push mowers, and ZTRunits.

As shown by those portions of deck 4 broken away in FIG. 9, in oneimplementation, the internal gaps or voids between deck 4 and deckinsert 20 are at least partially filled with a filler material 304, suchas an open cell or closed cell foam. In one implementation, once deckinsert 20, has been mounted to deck 4, a foam material is injectedthrough a provided nozzle opening into the one or more continuous voidsbetween deck 4 and deck insert 20. The filler material 304 furtherreduces noise during the operation of mower 300. In one implementation,the filler material 304 comprises a material that does not bond oradhere to the interior surfaces of deck 4, allowing the filler material304 to be peeled away from the underside of deck 4, when deck insert 20is being replaced. In yet another implementation, the filler material304 comprises a material configured to be manually broken apart orchipped away, allowing filler material 304 to be removed from theunderside of deck 4 when deck insert 20 is being replaced or is nolonger being used. In some implementations, filler material 304 is notadded or is added to selected voids or gaps between deck 4 and deckinsert 20.

Although mower deck insert 20 is illustrated for deck insertion intomower deck 4, mower deck insert 20 is also configured to be mounted intoother mower decks having two adjacent or side-by-side cutting chambers14 leading to a discharge opening 16. The precise configuration orinterior profile of mower deck 4 may have various configurations whilestill being different than the configuration and interior profileprovided by mower deck insert 20. For example, in one implementation,mower deck insert 20 may alternatively be mounted into a mower deck 4that has a continuous square or rectangular underside cavity, omittingprojection 17 shown in FIG. 1. Mower eck insert 20 may alternatively bemounted to into a mower deck 4 having a completely different ceilingshape with differently shaped projections and recesses, wherein mowerdeck insert 20 so has a different interior profile as compared to thatof mower deck 4.

FIGS. 10 and 11 illustrate mower deck insert 420, another exampleimplementation of mower deck insert 20. Mower deck insert 420 is similarto mower deck insert 20 except that mower deck insert 420 comprisesthree sequentially or serially located or formed cutting chambers forreceiving three corresponding rotatably driven cutting blades. Similarto mower deck insert 20, mower deck insert 420 comprises far sidecutting chamber 26 and nearside cutting chamber 28, described above.Unlike mower deck insert 20, mower deck insert 420 additionallycomprises an intermediate cutting chamber 428. Those remainingcomponents of mower deck insert 420 which correspond to components ofmower deck insert 20 are numbered similarly.

Intermediate cutting chamber 428 is similar to nearside cutting chamber28 except that intermediate cutting chamber 428 feeds airflow and cutvegetation into a different vertical cross-sectional area or volume ofdischarge chute to reduce potential airstream interference to increasebulk deck airflow. In the example illustrated, intermediate cuttingchamber 428 feeds airflow and cut vegetation into a cross-sectional areaof discharge passage 24 that is vertically between ceiling 34 ofdischarge passage 24 and upper surface 70 of scroll 62 at the junctionof scroll 62 with discharge passage 24.

Intermediate cutting chamber 428 comprises a cavity formed on anunderside of body 22 for receiving and shielding an intermediate cuttingblade (not shown). Intermediate cutting chamber 428 comprises hub 460and axial scroll 462. Hub 460 comprises a portion of body 22 centrallylocated within chamber 428 and providing a blade mounting portion 464 torotatably support the intermediate cutting blade for rotation aboutintermediate axis 466. In the example illustrated, blade mountingportion 464 comprises an aperture extending through hub 460 of body 22through which a blade shaft or blade bearing assembly extends.

Axial scroll 462 comprises a channel helically extending about axis 466.Axial scroll 462 comprises an upper surface 470 (appearing as a floor inthe inverted deck of FIG. 11) bound by sidewalls 472, 474. Upper surface470 axially scrolls about axis 466 such that scroll 462 is shallowestand such that upper surface 470 is a vertically lowest at start region476 of scroll 462 and such that scroll 462 is the deepest and verticallythe highest at end region 478, the junction between scroll 62 anddischarge passage 24.

In the example illustrated, scroll 462 extends at least 180° andnominally 240° about axis 466. Ceiling 470 of scroll 462 has scrollheight change of less than 2 inches from start region 476 to end region478. With such an example, a sufficiently large amount of airflow isproduced to move grass clippings and other cut material while at thesame time maintaining a low profile for the mower deck insert 420,allowing mower deck insert 420 to better fit beneath a mower chassis. Inother implementations, scroll 462 may scroll about axis 466 by otherextents and have a different scrolling rate with a different heightchange.

Upper surface 470 of scroll 462 feeds into discharge passage 24 at endregion 478 at a height below (above in the inverted view of deck insert420 shown by FIG. 10) the adjacent portion 480 of ceiling 34 ofdischarge passage 24. In the example illustrated, end region 478 ofscroll 462 terminates at a shoulder or step 482 which transitionsbetween the lower height of upper surface 470 and the greater height ofregion 480 of ceiling 34 of discharge passage 24. At the same time,upper surface 470 of scroll 462 at end region 478 is also at a heightbelow (above in the inverted view of deck 120 shown in by FIG. 10) theheight of end region 58 of scroll 42, but above (below in the invertedview of mower deck insert 420 shown in FIG. 10) the height of end region78 of scroll 62. In one implementation, step 482 of scroll 462 has aheight in a range of 0.5 inches and 0.75 inches while step 82 of scroll62 has a height of at least 1 inch and nominally 1.25 inches. In otherimplementations, the height or depth of the cross-sectional area ofdischarge passage 24 may be partitioned or divided amongst the outletsor in regions 58, 78, 478 of the three tangentially located cuttingchambers 26, 28, 428, respectively, in other manners. Although mowerdeck insert 420 is illustrated as including three cutting chambershaving axially scrolling upper surfaces, in other implementations, mowerdeck insert 420 may include greater than three such chambers seriallyarranged with respect to one another or alternatively arrangedtangential to and on both sides of discharge passage 24.

FIG. 11 is a sectional view of the mower deck insert 420 of FIG. 10taken along line 11-11 with mower deck insert 420 in an upright,operational orientation. As shown by FIG. 11, because upper surface 470of scroll 462 at end region 478 feeds into discharge passage 24 at alower height as compared to upper surface 50 of scroll 42 at end region48, airflow and cut material from intermediate chamber 428, indicated bydashed arrows 490, are fed into discharge passage 24 below the airflowand cut material from far side chamber 26, indicated by solid linearrows 92. Because upper surface 70 of scroll 62 at end region 78 feedsinto discharge passage 24 at a lower height as compared to upper surface470 of scroll 462 at end region 478, airflow and cut material from nearside chamber 28, indicated by dashed arrows 90, are fed into dischargepassage 24 below the airflow and cut material from intermediate chamber428, indicated by arrows 490 as well as below the airflow and cutmaterial from far side chamber 26. As a result, mower deck insert 420vertically partitions the cross-sectional area and volume of dischargepassage 24: an upper cross-sectional area or volume for airflow and cutmaterial from far side chamber 26, and intermediate cross-sectional areaor volume for airflow and cut material from intermediate chamber 428 anda lower cross-sectional area or volume for airflow and cut material fromnear side chamber 28. Heavier cut material from far side chamber 26, dueto its longer travel distance, naturally falls into the airflow streamof intermediate chamber 428 indicated by arrows 490. Heavier cutmaterial from intermediate chamber 428 naturally falls into the airflowstream of near side chamber 28 indicated by arrows 90.

Because mower deck insert 420 discharges airflow from chambers 26, 28,428 into distinct vertical portions of discharge passage 24, the airflowstreams represented by arrows 92, 90 and 490 from chambers 26, 28 and428, respectively, are less likely to interfere with one another. As aresult, mower deck insert 420 provides greater bulk deck airflow, thetotal airflow exiting mower deck insert 420 from chambers 26, 28 and 428through discharge opening 32. The greater airflow provided by mower deckinsert 420 more effectively disperses cut materials over the terrain ormore effectively propels cut materials into a collection volume carriedby the mower. The greater airflow provided by mower deck insert 420additionally creates a stronger upward vacuum below mower deck insert420, more effectively lifting grass or vegetation for cutting by thecutting blades. Moreover, the greater airflow allows the creation ofcutting units that produce the same or greater airflow but with lessnoise as compared to existing cutting units.

FIG. 12 illustrates an example inverted mower deck 504 for reception ofmower deck insert 520 shown in FIGS. 13A-13E. In the exampleillustrated, mower deck 504 has an underside cavity 506 with an interiorprofile 508. Interior profile 508 is defined by ceiling 510 and sidewalls 512. In the example illustrated, sidewalls 512 comprise a linearsidewall portion 513 and an angled sidewall portion 514. Undersidecavity 506 has an opening which serves as discharge opening 516. In theexample illustrated, deck 504 omits circular cutting chambers, butinstead has an open underside volume for supporting three cutting blades517. In the example illustrated, deck 504 is formed from metal, such assteel plates.

FIGS. 13A-13E illustrate mower deck insert 520, another implementationof mower deck insert 20. FIGS. 13A and 13B illustrate mower deck insert20 removably or permanently mounted within the mower deck 504. FIG.13C-13E provide various views of mower deck insert 520. Mower deckinsert 520 is similar to Mower deck insert 420 except that intermediatecutting chamber 428 is located forward of cutting chambers 26, 28 andthat mower deck insert 520 comprises discharge passage 524 in place ofdischarge passage 24. As shown by FIG. 12, discharge passage 524 isangled having a first portion or leg 527 extending from end region 58 ofscroll 42 and along end region 478 of scroll 462, and a second portionor leg 529 obliquely extending with respect to leg 527 while extendingalong end portion 78 of scroll 62 to discharge opening 532.

As shown by FIG. 13B which illustrates a deck insert 520 within mowerdeck 504 from the end of the assembly including discharge opening 516,discharge opening 532 smaller than discharge opening 516 of deck 504,increasing discharge velocity. At the same time, sidewalls 533 ofchamber 28 extend partially across opening 516 of deck 504, utilizingthe space below deck 504 not utilized by discharge passage 524. Asfurther shown by FIG. 13A, the sidewalls 533 of chambers 26, 28, 428 areeach circular or concave, extending along a linear sidewall portion 513,facing away from linear sidewall portion 513. The sidewalls 533 ofchamber 428 is spaced further from linear sidewall portion 513 ascompared to chambers 26, 28.

As shown by FIG. 13B, deck insert 520 also has an exterior profile, thetop surface of deck insert 520 facing the interior surface of deck 504,that is differently shaped and sized than the interior surface of deck504. As a result, voids 537 are formed between the interior surface ofdeck 504 and the top or back surface of deck insert 520. In oneimplementation, such voids 537 remain open. In another implementation,such voids are filled with a filler material, such as the fillermaterial 304 described above.

As shown by FIG. 13C-13E, in the example illustrated, deck insert 520comprises a single panel formed, such as by vacuum forming orthermoforming, so as to have the illustrated interior profile 540 shownin FIGS. 13E and 13D as well as the exterior profile 542 shown in FIG.13E. As a result, deck insert 520 has substantially a uniform thicknesswith the exterior profile 542 substantially mirroring the interiorprofile 540. In other implementations, deck insert 520 may have varyingthicknesses such that exterior profile 542 is different than interiorprofile 540. In one implementation, exterior profile 542 is configuredto match the interior profile of deck 504 while the interior profile 540is different than both the exterior profile 542 as well the interiorprofile of deck 504.

FIGS. 14A-14E illustrate deck insert 620, another implementation of deckinsert 20. Deck insert 620 similar to deck insert 520 except that deckinsert 620 comprises mounting collars 630 through which blade supportingspindles 632 (shown in FIG. 14A) extend. Those remaining components,structure elements of deck insert 620 which correspond to components ofdeck insert 520 are numbered similarly.

Mounting collars 630 are provided for each of chambers 26, 28 and 428.Each of collars 630 includes one or more opening through which fastenersextend for bolting or otherwise fastening spindles 632 to deck insert620. In other implementations, mounting collars 630 have otherconfigurations or are omitted.

FIGS. 15A-15E illustrate deck insert 720, another implementation of deckinsert 20. Deck insert 720 is similar to deck insert 520 except thatdeck insert 720 comprises discharge passage 724 instead of dischargepassage 524. Discharge passage 724 is itself similar to dischargepassage 524 except the discharge passage 724 follows an arcuatecenterline having a concave side that faces sidewalls 533 of chambers26, 28, 428. The curved shape of discharge passage 724 further enhancesthe flow of grass clippings and other cut material out discharge passage724 and ultimately out discharge opening 532.

FIGS. 16A-16E illustrate deck insert 820, another implementation of deckinsert 20. Deck insert 820 is similar to deck insert 720 except thatdeck insert 620 comprises mounting collars 630 described above. Thoseremaining components, structure elements of deck insert 620 whichcorrespond to components of deck insert 520 are numbered similarly. Inother implementations, mounting collars 630 have other configurations orare omitted.

FIGS. 17A-17E illustrate deck insert 920, another example implementationof deck insert 20. Deck insert 920 is similar to deck insert 620described above except that deck insert 920 comprises discharge passage924 in lieu of discharge passage 524 and omits interconnecting web 529(shown in FIG. 13A). Discharge passage 924 is similar to dischargepassage 524. As with discharge passage 524, discharge passage 924comprises legs 527 and 529 described above. As shown by FIG. 17A, thoseportions of deck insert 920 forming the exterior of discharge passage924 are internally spaced from sidewalls 514 of deck 504 and thoseportions of deck insert 924 with sidewalls 533 of chambers 26, 28 and428 are internally spaced from rear wall 513 of deck 504. As a result,deck insert 920 is lighter in weight and avoids tolerance concerns whendeck insert 920 is mounted within the interior of deck 504. Variationsin width of discharge passage 924 can be used to tailor dischargevelocity of cut material.

FIGS. 18A-18E illustrate deck insert 1020, another exampleimplementation of deck insert 20. Deck insert 1020 is similar to deckinsert 720 described above except that deck insert 1020 comprisesdischarge passage 1024 in lieu of discharge passage 524 and omitsinterconnecting web 529 (shown in FIG. 13A). Discharge passage 1024 issimilar to discharge passage 724. As with discharge passage 724,discharge passage 1024 extends along an arcuate centerline having aconcave side facing chambers 26, 28, 428 and wall 513 of deck 504. Asshown by FIG. 18A, those portions of deck insert 1020 forming theexterior of discharge passage 1024 are internally spaced from sidewalls514 of deck 504 and those portions of deck insert 1024 forming sidewalls533 of chambers 26, 28 and 428 are internally spaced from rear wall 513of deck 504. As a result, deck insert 1020 is lighter in weight andavoids tolerance concerns when deck insert 1020 is mounted within theinterior of deck 504. Variations in width of discharge passage 924 canbe used to tailor discharge velocity of cut material.

FIG. 19 is a bottom perspective view illustrating mower deck insert1220, another example implementation of mower deck insert 420. As withthe above described deck inserts, deck insert 1220 is formed from one ormore non-metallic materials such as polymers, fiberglass, ceramics,rubbers or the like. Such materials may be in the form of a solidmaterial or layer, a foamed material or layer and/or multiple solid orfoamed layers of material laminated to one another. Mower deck insert1220 is for insertion and mounting to a deck of a mower, within theunderside cavity of the deck. In one implementation, mower deck insert1220 is for mounting within deck 504 shown in FIG. 12. In otherimplementations, mower deck insert 1220 may be mounted within otherdecks or may be modified for mounting within other decks.

Mower deck insert 1220 is similar to mower deck insert 420 in that mowerdeck insert 1220 has an interior profile shape different than theinterior profile or shape of the underside cavity of the deck in whichinsert 1220 is received. Mower deck insert 1220 is similar to mower deckinsert 420 except that mower deck insert 1220 additionally comprisesdivider walls 1222, openings 1224, drag reducing surface treatments 1226and drag reducing surface treatments 1228. Those remaining structuresare components of insert 1220 correspond to similar components of insert420 and are numbered similarly.

Divider walls 1222 comprise structures extending downward from the uppersurface of deck 1220 towards the underlying ground or terrain. Dividerwalls 1222 extend between consecutive or adjacent chambers 26 and 428and between adjacent chambers 428 and 28. Divider walls 1222 projectdownwardly towards the underlying terrain by a greater distance than theupper surface or ceilings of the chambers 26, 28, 428. Divider walls1222 extend adjacent to discharge passage 24 so as to direct airflowfrom the adjacent chambers 26, 28, 428 into and along discharge passage24, rather than across the adjacent chamber 26, 28, 428. As a result,divider walls 1222 promote enhanced flow efficiency or better airflowwithin each of chambers 26, 28, 428 and along discharge passage 24.

Openings 1224 extend from an adjacent divider wall 1222 between adjacentchambers 26, 28, 428. Openings 1224 facilitate overlapping of thecutting swaths of the blade within the respective chambers. In otherimplementations, openings 1224 may be omitted such as where chambers 26,28 and 428 overlap one another in fore and aft directions but do notsubstantially overlap in a sideways or transverse direction. In suchimplementations, divider wall 1222 may extend from adjacent dischargepassage 24 completely across and between chambers 26, 28, 428.

In the example illustrated, divider walls 1222 comprise triangularshaped, downwardly projecting plateaus. In other implementations,divider walls 1222 may comprise other shapes. In the exampleillustrated, divider walls 1222 are integrally formed as a singleunitary body and homogenously formed as part of deck insert 1220. Inother implementations, divider walls 1222 may comprise separatestructures fastened, snapped or otherwise mounted to an underside ofother portions of deck insert 1220.

Drag reducing surface treatments 1226, 1228 comprise surfaceirregularities formed upon the underside surface or ceiling of deckinsert 1220. Surface treatments 1226, 1228 may reduce airflow drag forenhanced performance of deck insert 1220 during mowing. In the exampleillustrated, drag reducing surface treatments 1226, 1228 are formed uponan undersurface of deck insert 1220 along the ceilings of each ofchambers 26, 28, 428. In yet other implementations, surface treatments1226, 1228, or other drag reducing surface treatments, may be formedupon other ceiling surfaces of deck insert 1220, such as along theceiling above the discharge passage. In one implementation, surfacetreatments 1226, 1228 are sized, shaped or located so as to not diminishor at least not increase a tendency of grass to clump or collect alongsuch surfaces including surface streams 1226, 1228.

As shown by FIGS. 19 and 20, drag reducing surface treatments 1226comprise serrations or grooves 1232 formed upon an underside orundersurface of chamber 28. Grooves 1232 have centerlines that extendalong the direction of anticipated airflow. In the example illustrated,grooves 1232 comprise arcuate or circular grooves extending about axis66 of chamber 28. In one implementation, each of grooves 1232 has awidth of at least 0.125 inches and less than or equal to 0.5 inches, adepth of at least 0.0625 inches and less than or equal to 0.25 inchesand a center-to-center pitch of at least 1.5 to 3 times the width of thegroove. in other implementations, grooves 1232 may have otherconfigurations. In one implementation, grooves 1232 have a semi-circularcross-sections. In other implementations, grooves 1232 have polygonalcross-section such as square or V-shaped cross-sections.

As shown by FIGS. 19 and 21, drag reducing surface treatments 1228comprise craters or dimples 1234 formed upon an underside orundersurface of chamber 26 and chamber 428. In one implementation,dimples 1234 each have a width or diameter of at least 0.125 inches andless than or equal to 0.5 inches, a depth of at least 0.0625 inches andless than or equal to 0.25 inches and a center-to-center pitch of atleast 1.5 to 3 times the diameter of the dimple. In one implementation,dimples 1234 are uniformly dispersed along the undersurface of theirrespective chambers 26, 428. In another implementation, the density ofdimples 1234 varies along different portions of the underside ofchambers 26, 428 for enhanced drag reduction where such drag reductionis most beneficial.

In one implementation, insert 1220 is formed from a molded polymer. Insuch an implementation, grooves 1232 and dimples 1234 are formed duringmolding of insert 1220. In yet other implementations, grooves 1232and/or dimples 1234 or alternatively formed using material removalprocesses. Although insert 1220 is illustrated as having both types ofdrag reducing surface treatments 1226, 1228, in other implementations,insert 1220 may comprise one or the other of surface treatments 1226,1228. In yet other implementations, insert 1220 may comprise other typesof drag reducing surface treatments that breakup airflow to reduceairflow drag along such surfaces.

FIG. 22 is a sectional view illustrating an example coupling andinteraction of insert 1220 with a deck, such as deck 1304. Deck 1304 aresimilar to deck 504 (shown in FIG. 12 above) except that deck 1304 isspecifically illustrated as additionally a lower lip or edge having arim 1306. In the example illustrated, rim 1306 forms a hook. In otherimplementations, rim 1306 forms a horizontal ledge or inclined ledge orlip.

As shown by FIG. 22, insert 1220 comprises a flange 1322 correspondingto rim 1306. Flange 1322 is shaped and sized so as to extend over rim1306 when insert 1220 is mounted or otherwise secured within theunderside cavity of deck 1304. In the example illustrated, flange 1322forms a hook corresponding to the hook provided by rim 1306. The hooksinteract with one another such that insert 1220 wraps about theunderside and outside of rim 1306 to protect rim 1306. At the same time,rim 1306 assists in supporting insert 1220. In one implementation,insert 1220 is resiliently flexible so as to temporarily deform and snaponto rim 1306 during insertion of insert 1220 into deck 1304.

In one implementation, an entire outer perimeter of deck 1304 comprisesrim 1306 while an entire outer perimeter of insert 1220 comprises flange1322. In yet other implementations, insert 1220 comprises a plurality ofspaced flanges 1322 which interact with corresponding rims 1306 of deck1304. In one implementation, deck 1304 also comprises a plurality ofspaced rim portions 1306 corresponding to the location of the pluralityof spaced flanges 1322 when insert 1220 is mounted to an insert withindeck 1304.

FIG. 23A is a sectional view illustrating an example coupling andinteraction of another portion of insert 1220 with a deck, such as deck1304. As shown by FIG. 23A, insert 1220 is configured so as to wraparound the downwardly projecting wall of deck 1304 such overlap an outersurface 1406 of deck 1304, forming a bumper 1422. In the exampleillustrated, bumper 1422 extends alongside and parallel to the outersurface of deck 1304. In one implementation, bumper 1422 extends alongthe outer wall of chamber 26 along the region indicated by referencenumeral 1423 in FIG. 19. As a result, bumper 1422 protects overlappedportions of deck 1304 which are rubbed against structures during mowingin order to cut closest to such structures with the blade rotatingwithin chamber 26.

In the example illustrated, bumper 1422 has a thickness T greater than athickness t of the wall forming insert 1222 within deck 1304. Theincreased thickness provides enhanced protection. In one implementation,bumper 1422 comprises multiple walls forming a hollow interior 1426. Inone implementation, interior 1426 is empty, reducing the weight ofinsert 1220. In one implementation, portions of the walls extendingabout interior 1426 are resiliently flexible, allowing such walls toresiliently and temporarily collapse into the void within interior 1426when encountering another structure. In yet another implementation,interior 1426 is at least partially filled with a resilientlycompressible material 1428, such as an open celled or close celled foam.In still other implementations, bumper 1422 may be formed from a singlewall of polymeric material having substantially the same thickness isthat of the remainder of insert 1220.

FIG. 23B is a fragmentary sectional view illustrating deck 1404 and deckinsert 1420, another implementation of deck insert 1220. Deck 1404 issimilar to deck 1304 and deck 504 described above except that deck 1404comprises at least one opening 1408 extending through the downwardlyextending portion 1409 of deck 1404. In the example illustrated, deck1404 is formed from one or more layers of non-metallic materials such asone or more layers of a polymer, ceramic, fiberglass or compositesthereof. In one implementation, portions of the non-metallic layers ofmaterial forming deck 1404 encapsulate or in case metal inserts, such asmetal insert 1410. In other implementations, inserts 1410 may be omittedor deck 1404 may be formed from a metal material.

As further illustrated by FIG. 23B, in implementations where deck 1404has a non-metallic body, being formed from one or more layers of anon-metallic material and where deck insert 1420 also has a non-metallicbody, formed from one or more layers of a non-metallic material, themower may additionally comprise a rigid metal backbone member 1440extending between and sandwiched between portions of deck 1404 andinsert 1420. Backbone member 1440 contacts both deck 1404 and insert1420 while rigidifying and strengthening their respective structures andshapes. In other implementations, backbone member 1440 is omitted.

Deck insert 1420 is similar to deck insert 1220 described above exceptthat deck insert 1420 additionally comprises for bumper portion 1432.Bumper portion 1432 projects, juts or extends through opening 1408 andbeyond opening 1408 horizontally outwardly beyond the outer surface 1411of downward extending portion 1409 of deck 1404. In one implementation,bumper portion 1432 projects outwardly beyond outer surface 1411 by atleast 0.5 inches and nominally at least 2 inches. In otherimplementations, bumper portion 1432 extends outwardly beyond surface1411 by other extends.

In the example illustrated, bumper portion 1432 is hollow, having ahollow interior 1434 in communication with the interior of insert 1420.In another implementation, the hollow interior 1434 is filled with agel, foam or other filler material having a greater degree ofcompressibility or lower density than that of the material forming thewalls of insert 1420. In another implementation, hollow interior 1434may be omitted and replaced with a honeycomb structure formed from thesame material forming insert 1420. In yet other implementations, bumperportion 1432 is solid.

FIG. 24A is a sectional view illustrating deck 1504 and insert 1520,example implementations of deck 1304 and 420 described above. Deck 1504is similar to deck 1304 and deck 402 except that deck 1504 comprises anopening 1506 extending through deck ceiling 1508. Opening 1520 receivedportions of insert 1520.

Insert 1520 is similar to insert 1220 except that insert 1520additionally comprises protuberant portion 1522. Protuberant portion1522 comprises those portions of insert 1520 that stick out, project orjut upwardly beyond a lower surface of deck 1504 and nominally above theupper surface of deck 1504. In one implementation, protuberant portion1522 is prominent with respect to and juts through and above opening1506. As shown by FIG. 24B, in another implementation, insert 1520extends horizontally beyond a perimeter of deck 1504 then projectupwardly above the top of deck 1504 to form protuberant portion 1522 andceiling 1526.

Protuberant portions 1522 are integrally formed as a single unitary bodyand homogenous with portions of insert 1520 that extend below deck 1504and which form at least portions of the interior profile provided bydeck 1520. In one implementation, protuberant portion 1522 areintegrally formed as a single unitary body as part of a single layerthat forms both protuberant portion 1520 and the ceiling of at least oneof chambers 26, 28 and 428 (shown in FIG. 19). In the exampleillustrated, protuberant portion 1522 is formed as part of a continuouslayer that forms a ceiling of discharge passage 24 and each of thechambers provided by the particular insert, such as insert 1520, whereinportions of the layer projects through opening 1506.

Protuberant portion 1522 has an underside which forms a ceiling 1526that forms part of the interior profile provided by insert 1520. Ceiling1526 extends at or above and beyond a top surface of deck 1504. Becauseprotuberant portion 1522 juts or projects above and beyond the top ofdeck 1504, the height of ceiling 1526 is not restricted to the verticaldistance between the underlying terrain and the underside of deck 1504.As a result, ceiling 1526 may have a greater height, providing a greatervolume below ceiling 1526.

In one implementation, ceiling 1526 of protuberant portion 1522 servesas the ceiling for passage 24. As a result, those portions of passage 24provided with ceiling 1526 have a greater cross-sectional area or volumeto provide greater space for grass movement and airflow. In oneimplementation, ceiling 1526 of protuberant portion 1522 is located inthe region of passage 24 identified by reference 1423 in FIG. 19,alongside chamber 26.

In other implementations, protuberant portion 1522 and its ceiling 1526may be provided at other portions of insert 1520. For example,protuberant portion 1522 may additionally or alternatively form part ofthe ceiling or underside of one or more of channels 26, 28 and 428. Inone implementation, deck 1504 merely comprises a framework or skeleton,wherein at least a majority and nominally two thirds of the horizontalsurface area of deck 1504 is open and wherein the underlying insert 1520projects through, above and beyond such open areas or regions of deck1504.

FIG. 24C is a top view of an example deck 1604 and the underlying insert1620. In the example illustrated, those portions of insert 1620 formingeach of chambers 26, 428 and 28 as well as the far side portion 1623 ofpassage 24 jut above the upper surface of deck 1604 which serves as askeleton or supporting framework for insert 1620. In otherimplementations, insert 1620 may project above deck 1604 to otherextents, wherein the skeletal configuration of deck 1604 may varydepending upon the extent to which insert 1620 projects above deck 1604.

FIG. 25 is a sectional view illustrating one example arrangement for thesupport of a deck insert, such as deck insert 1220 or 1520. As shown byFIG. 25, the mower additionally comprises a spindle 1700 which supportscutting blade 1702 and a retainer 1704. In one implementation, retainer1704 comprises a washer, ring or other structure secured to spindle1704. Insert 1220 extends about spindle 1700 and is captured orsandwiched between deck 1304 and retainer 1704. In one implementation,deck 1304 additionally comprises a strengthening ring or other structureopposite to retainer 1704 and about spindle 1700.

As further shown by FIG. 25, in one implementation, insert 1220, oneformed from a molded polymer, encapsulates rigid or strengtheninginserts 1722. In one implementation insert 1722 comprise metal inserts.Such metal inserts provide additional strength and rigidity in selectedregions of insert 1220. In the example illustrated, inserts 1722 areencapsulated within deck insert 1220 in regions about the openingthrough which spindle 1700 extends, the regions of insert 1220 which arecaptured between retainer 1704 and deck 1304. In other implementations,inserts 1722 are fastened, bonded or otherwise secured to deck insert1220 in other fashions other than through encapsulation. In otherimplementations, inserts 1722 are provided at additional or alternativelocations of deck insert 1220. In yet other implementations, insert 1722are omitted.

FIG. 26 is a bottom perspective view of an example deck 1804. Deck 1804is similar to deck 4 described above except that deck 1804 lacks complexsurface geometries, having the form of an oval basin or pan. In oneimplementation, deck 1804 is formed from a stamped and deformed metal.In another implementation, deck 1804 is fabricated from sheet metal orplate steel. As shown by FIG. 26, deck 1804 comprises top 1806,sidewalls 1808, blade drive openings 1810, side discharge opening 1812and bagging opening 1814. Blade Drive openings 1810 comprise openingsthrough which shafts or spindles associated with the blades to bereceived within deck 1804 extend. Side discharge opening 1812 comprisesan opening at one end of deck 1804 through which clippings are to bedischarged to one side of the mower. Bagging opening 1814 comprises anopening through which grass clippings are to be directed to a bag orother clipping collection volume or container. Because deck 1804includes both side discharge opening 1812 and bagging opening 1814, deck1804 may be adapted for side discharge of clippings, bagging ofclippings or mulching of clippings through the use of differentinterchangeable deck inserts.

In one implementation, the mower including deck 1804 is provided withinsert 22 (shown and described above with respect to FIGS. 1-4). In suchan implementation, the mower is equipped for side discharge ofclippings. In such an implementation, deck insert 22 extends across,includes and covers bagging opening 1814 of riding discharge passage 24that leads to side discharge opening 1812.

FIGS. 27 and 28 illustrate deck insert 1920, a deck insertinterchangeable with deck insert 22. Deck insert 1922 is specificallyconfigured to cooperate with deck 1804 to facilitate rear bagging ofclippings. Deck insert 1922 is similar to deck insert 22 described aboveexcept that deck insert 1920 omits discharge passage 24 and opening 32while additionally comprising bagging opening 1922 and chute 1924.Bagging opening 1922 comprises opening through the ceiling of deckinsert 1920 that is in substantial alignment with bagging opening 1814of deck 1804 when insert 1920 is mounted to an received within theunderside cavity of deck 1804. Bagging opening 1922 is located betweenchambers 26 and 28.

Chute 1924 comprises a conduit which extends from bagging opening 1922through bagging opening 1814 to a clippings containment structure, suchas a bag. In one implementation, chute 1924 is integrally formed as asingle unitary body with the remainder of deck insert 1920 that iscontained below deck 1804. In another implementation, chute 1924 isreleasably mounted to the remainder of deck insert 1920. In someimplementations, chute 1924 is pre-existing as part of the baggingmechanism of the mower, wherein the chute 1924 simply abuts a top of thewall of deck insert 22 when the mower is in a side discharge mode and isnot being presently used for bagging of clippings.

FIG. 29 is a top view of deck insert 2020. Deck insert 2020 is similarto deck insert 20 except that deck insert 2020 is specificallyconfigured for mulching. Deck insert 2020 omits discharge passage 24 anddischarge opening 32. In contrast, deck insert 2020 comprises acontinuous layer of material, such as a nonmetal such as a polymer,fiberglass, ceramic or the like, that forms a pair of chambers 26, 28 inwhich the cutting blades are rotatably driven to cut grass which ismulched into the underlying uncut grass. The continuous layer ofmaterial further comprises a mulching blockage portion 2021, in the formof a wall, plug or the like, that extends across and blocks dischargeopening 1812 of deck 1804. In some implementations, deck insert 2020 maybe used with other decks similar to deck 1804, but wherein suchalternative decks 1804 omit one of openings 1812, 1814.

FIG. 30 is a sectional view illustrating a portion of deck insert 2020as shown by FIG. 30, the underside of deck insert 2020 compriseskickers, down wings or deflectors 2022 integrally formed as a singleunitary body as part of the wall forming insert 2020. Deflectors 2022extend along the ceiling of each of chambers 26, 28. As indicated byarrows 2025, deflectors 2022 direct airflow downward across cuttingblade 2027 towards the underlying ground or terrain 2029. As a result,grass or clippings is also directed back into the ground 2029 formulching. In other implementations, deck insert 2020 may omit deflectors2022.

FIGS. 31-35 illustrate mower deck insert system 2100. Mower deck insertsystem 2100 comprises one or more modules that form a deck insert for adeck. Mower deck insert 2100 comprises a single mower insert module thatmay be used in a single chamber, single cutting blade mower or that maybe combined with other identical modules in multi chambered,multi-cutting blade mowers. FIG. 31 is a bottom perspective view of anexample mower deck insert module 2120. Insert module 2120 is to bemounted to the underside of deck using mechanical attachment withfasteners, such as screws, bolts, clips, “Christmas trees” and the like,or various fittings. In another implementation, mower deck insert module2120 is configured to be mounted to the underside of mower deck 4 usinga multitude of bonding processes including adhesives and coatings. Inyet another implementation, mower deck insert module 2120 is configuredto be mounted to the underside of mower deck 4 through welding, latchesor other securement mechanism.

In one implementation, mower deck insert module 2120 is formed from oneor more polymeric materials or plastics, providing mower deck insertmodule 2120 with flexibility and enabling mower deck insert mother 2120to bend or flex to fit to an existing mower deck without substantiallyincreasing the weight of the cutting unit of the mower. Polymericforming processes for the mower deck insert module 2120 could includethermoforming, injection molding, blow molding, rotational molding, andpolystyrene foam (or alternative functional equivalent material) coatedwith a polymeric material. In other implementations, mower deck insertmodule 2120 is formed from fiberglass or a stamped metal, such as steelor aluminum. A stamped metal deck insert may be coated or treated with achemical compound (such as boron nitride) to provide wear resistanceand/or reduced friction/anti-stick properties. In yet otherimplementations, mower deck insert module 2120 is formed from a foammaterial or an alternative functional equivalent material (such aswood), wherein at least the underside of the material is coated with awear resistant coating and/or a low friction/anti-stick coating, such aspolytetrafluoroethylene (TEFLON), boron nitride, orpolyurea/polyurethane. In addition to providing wear resistance and/orlow friction, the coating may also be used to bond the mower deck insertmodule 2120 to the mower deck.

In some implementations, deck insert module 2120 may be employedpermanently to the mower deck. In some implementations, deck insertmother 2120 is removably mountable to mower deck, facilitating easyreplacement of deck insert module 2120 when deck insert mother 2120becomes worn or damaged or when a different interior profile ispreferred to optimize performance for a specific application need, suchas side-discharging, bagging, mulching, or atypical mowing conditions.Differently configured cutting blades can be used with differentinterior profiles to provide optimal airflow and/or reduced noisecharacteristics and/or reduced power consumption characteristics, for aspecific application need. A reduced power consumption characteristic isespecially desirable if the blade drive system is a battery-poweredelectric motor. Because deck insert model 2120 extends on the inside ofa deck, deck insert module 2120 protects the deck which now serves as abacking, substrate or base structure. In some implementations, soundinsulating material can be used between deck insert 2120 and the deck.Deck insert module 2120 being of favorable shape for enhanced airflowwith less drag and turbulence, reduces unwanted grass buildup on theunderside of the mower deck, usually experienced when cutting wet grass.This effect can be enhanced via use of reduced friction/anti-stickcoatings in combination with the favorable deck insert model 2120 shape.Deck insert module 2120 being of favorable shape for enhanced airflowand vacuum generation reduces or eliminates blow-out from underneath thedeck lip, thus improving cut-quality of the mowing unit.

In the example illustrated, mower deck insert module 2120 comprises apanel or body 2122 having a perimeter including a linear side portion orvertical wall that forms side of the discharge passage and a curved sideportion extending from the linear side portion. Body 2122 furthercomprises a hub 2140 and axial scroll 2142. Hub 2140 comprises a portionof body 2122 centrally located to provide a blade mounting portion 2144for rotatably supporting a cutting blade. In the example illustrated,blade mounting portion 2144 comprises an aperture extending through hub2140 of body 2122 through which a blade shaft or blade bearing assemblyextends.

Axial scroll 2142 comprises a surface 2150 helically extending aboutaxis 2146 and above the linear and curved side portions forming theperimeter of body 2122. Axial scroll 2142 forms a ceiling 2150 above thecutting chamber. As shown by FIG. 31, in the example illustrated, deckinsert model 2120 omits sidewalls about scroll 2142, instead utilizingsidewalls provided by the overlying deck are deck shell and facilitatinguse of module 2142 with other modules 2142. As shown by FIG. 31, deckinsert module 2120 omits a discharge passage, instead utilizing portionsof the overlying deck or shell to provide the discharge passage,facilitating use of module 2142 with other modules 2142.

In the example illustrated, axial scroll 2142 axially scrolls about axis2146 such that scroll 2142 is shallowest and such that upper surface2150 is vertically lowest at start region 2156 of scroll 2142 and suchthat scroll 2142 is the deepest and vertically highest at end region2158, the junction between scroll 2142 and discharge passage formulationpart by the overlying deck or shell. In the example illustrated, uppersurface 2150 smoothly blends with or ramps into the ceiling of dischargepassage 24 at end region 2158. In other implementations, the junctionbetween upper surface 2150 at region 2158 and the discharge passage mayhave a distinctive ramp or step.

In the example illustrated, scroll 2142 extends at least 180° andnominally 240° about axis 2146. Upper surface 2150 of scroll 2142 hasscroll height change of less than 2 inches from start region 2156 to endregion 2158. With such an example, a sufficiently large amount ofairflow is produced to move grass clippings and other cut material whileat the same time maintaining a low profile for the deck insert model2120, allowing deck insert model 2120 to better fit beneath a mowerchassis. In other implementations, scroll 2142 may scroll about axis2146 by other extents and have a different scrolling rate with adifferent height change.

FIG. 32 illustrates deck insert module 2120 mounted within a singlechambered or single cutting blade shell or deck 2204 to form deckassembly 2205. Mower deck 2204 comprises a deck for being mountedbeneath a chassis of a tractor unit so as to enclose a single rotatingcutting blade. Mower deck 2204 has an underside cavity 2206 with aninterior profile 2208. In the example illustrated, mower deck 2204comprises a ceiling 2210 and sidewalls 2212 that form a single cuttingchamber 2214, a discharge passage 2215 extending alongside cuttingchamber 2214 and a discharge opening 2216 through which cut grass isdischarged from chamber 2214.

FIG. 33 illustrates two deck insert modules 2120 mounted within a twochambered or dual cutting blade shell or deck 2304 to form deck assembly2305. In the example illustrated, modules 2120 are illustrated as beingmounted side-by-side. In the example illustrated, model 2120 are mountedwithin deck 2304 such that region 2156 of the far side module 2120(farthest from the discharge opening 2316) is adjacent region 2158 ofthe near side module 2120 (closest to discharge opening 2316) In otherimplementations, modules 2120 may be spaced from one another. In someimplementations, portions of deck 2304 extend between modules 2120 tocompletely separate modules 2120.

Mower deck 2304 comprises a deck for being mounted beneath a chassis ofa tractor unit so as to enclose a single rotating cutting blade. Mowerdeck 2304 has an underside cavity 2306 with an interior profile 2308. Inthe example illustrated, mower deck 2304 comprises a ceiling 2310, outersidewalls 2311 and inner sidewalls 2312 that form two cutting chambers2314, a discharge passage 2315 extending alongside cutting chambers 2314and a discharge opening 2316 through which cut grass is discharged fromchambers 2314. Outer sidewalls 2311 form a perimeter of deck 2304 anddefine portions of discharge passage 2315. Inner sidewalls 2312circumferentially extend about sides of inserts 2120 and define thepartial circumferential outer profile of each of cutting chambers 2314.In some implementations, those portions of outer sidewalls 2311 outsideof inner sidewalls 2312 may be omitted. In other implementations, deck2304 may have other configurations.

FIGS. 34 and 35 illustrate three deck insert modules 2120 (modules2120A, 2120B, 2120C) mounted within a three chambered or triple cuttingblade shell or deck 2404 to form deck assembly 2405. In the exampleillustrated, modules 2120 are illustrated as being mounted side-by-side.In the example illustrated, modules 2120 are mounted within deck 2404such that region 2156 of the far side module 2120A (farthest from thedischarge opening 2416) is adjacent region 2158 of central module 2120Bwhile region 2156 of module 2120B is adjacent region 2158 of near sidemodule 2120C (closest to discharge opening 2416). In otherimplementations, modules 2120 may be spaced from one another. In someimplementations, portions of deck 2404 extend between modules 2120 tocompletely separate modules 2120.

Mower deck 2404 comprises a deck for being mounted beneath a chassis ofa tractor unit so as to enclose a single rotating cutting blade. Mowerdeck 2404 has an underside cavity 2406 with an interior profile 2408. Inthe example illustrated, mower deck 2404 comprises a ceiling 2410, outersidewalls 2411 and inner sidewalls 2412 that form three cutting chambers2414, a discharge passage 2415 extending alongside cutting chambers 2414and a discharge opening 2416 through which cut grass is discharged fromchambers 2414. Outer sidewalls 2411 form a perimeter of deck 2304. Innersidewalls 2412 circumferentially extend about sides of inserts 2120 anddefine the partial circumferential outer profile of each of cuttingchambers 2314. In the example illustrated come inner sidewalls 2412additionally extend alongside discharge passage 2415 two formed sides ofdischarge passage 2415. In some implementations, those portions of outersidewalls 2411 outside of inner sidewalls 2312 may be omitted. In otherimplementations, deck 2404 may have other configurations.

Although the claims of the present disclosure are generally directed toa more, the present disclosure is additionally directed to the featuresset forth in the following definitions.

1. A mower comprising:

a deck comprising an underside cavity with a first interior profile; and

a deck insert mounted within the underside cavity, the deck inserthaving a deck insert interior with a second interior profile differentthan the first interior profile.

2. The mower of definition 1, wherein the deck insert has an outerprofile, wherein portions of the outer profile are horizontally spacedfrom interior side surfaces of the deck.

3. The mower of definition 1, wherein the deck insert has an outerprofile, wherein portions of the outer profile are vertically spacedfrom upper interior surfaces of the deck.

4. The mower of definition 1, wherein the first interior profilecomprises upper interior deck surfaces having a first shape and whereinthe second interior profile has upper interior deck insert surfaceshaving a second shape different than the first shape.

5. The mower of definition 1, further comprising a filler materialbetween the first interior profile of the deck and the deck insert.

6. The mower of definition 1, wherein the deck comprises a linearsidewall and wherein the deck insert comprises a plurality of concaveside walls along the linear sidewall and facing away from the linearsidewall.

7. The mower of definition 1, wherein the deck is metallic and whereinthe deck insert is formed from a material selected from a group ofmaterials consisting of one or more polymers, fiberglass, metals,organic materials and composites in the form of a coating, layer,laminate or foam.

8. The mower of definition 1, wherein the deck defines a first dischargeopening for the underside cavity and where the deck insert defines asecond discharge opening for the deck insert interior, the seconddischarge opening being geometrically different than the first dischargeopening.

9. The mower of definition 8, wherein the second interior profilecomprises a circular chamber having sidewalls extending partially acrossthe first discharge opening.

10. The mower of definition 1, wherein the deck defines a firstdischarge opening the underside cavity and where the deck insertcomprises a continuous layer of material forming a first chamber for afirst cutting blade, a second chamber for a second cutting blade and amulching blockage portion blocking the first discharge opening.

11. The mower of definition 1, wherein the first interior profilecomprises a first linear side and a second pointed side opposite thefirst linear side and wherein the second interior profile comprises aplurality of circular blade chambers and a curved discharge passagealong the plurality of blade chambers and along the second pointed sidewith the deck insert forming both opposite sides of the curved dischargepassage.

12. The mower of definition 1, wherein the first interior profilecomprises a first linear side and a second pointed side opposite thefirst linear side and wherein the second interior profile comprises aplurality of circular blade chambers and an angled discharge passagealong the plurality of blade chambers and along the second pointed sidewith the deck insert forming both opposite sides of the angled dischargepassage.

13. The mower of definition 1, wherein the second interior profile ofthe deck insert comprises:

a discharge passage having a ceiling and terminating at a dischargeopening;

a first chamber tangent to the discharge passage to receive a firstblade that rotates about a first axis, the first chamber having a firstupper surface and feeding into the discharge passage and

a second chamber tangent to the discharge passage and adjacent to thedischarge opening to receive a second blade that rotates about a secondaxis, the second chamber having a second upper surface scrolling aboutthe second axis and feeding into the discharge passage at a height belowan adjacent portion of the ceiling of the discharge passage.

14. The mower of definition 13, wherein the discharge openingcircumferentially extends at least 75 degrees about the second axis.

15. The mower of definition 13, wherein the height of the second uppersurface feeding into the discharge passage is at least 0.5 inches belowthe adjacent portion of the ceiling of the discharge passage.

16. The mower of definition 13, wherein the height of the second uppersurface feeding into the discharge passage is at least 1 inch below theadjacent portion of the ceiling of the discharge passage.

17. The mower of definition 13, wherein the second upper surfaceterminates at a step below the adjacent portion of the ceiling of thedischarge passage.

18. The mower of definition 13, wherein the second upper surfacescrolling about the second axis has a drop of at least 1 inch.

19. The mower of definition 13 further comprising a third chambertangent to the discharge passage between the first chamber and thesecond chamber to receive a third blade that rotates about a third axis,the third chamber having a third upper surface scrolling about the thirdaxis and feeding into the discharge passage at a second height below anadjacent portion of the ceiling of the discharge passage

20. The mower of definition 13, wherein the first upper surface feedsinto the ceiling of the discharge passage at a height of the ceiling.

21. The mower of definition 13, wherein the first upper surface scrollsabout the first axis and feeds into the ceiling of the discharge passageat a height of the ceiling.

22. The mower of definition 13 further comprising:

a first blade;

a second blade;

at least one power source operably coupled to the first blade and thesecond blade

23. The apparatus of definition 13, further comprising:

a first blade;

a second blade, wherein the first blade and the second blade output bulkairflow through the discharge opening of at least 700 SCFM at a soundpower of less than or equal to 104 dB.

24. The apparatus of definition 13, further comprising:

a first blade;

a second blade, wherein first blade and the second blade output bulkairflow through the discharge opening at a rate of at least 70 times anet of a radial weighted net frontal area of the first blade and thesecond blade plus a minimum constant of 340 SCFM.

25. The apparatus of definition 24, wherein the second upper surfacefeeds into the discharge passage at a step having a height of at least0.5 inches below the adjacent portion of the ceiling of the dischargepassage.

26. The mower of definition 1, wherein the second interior profile ofthe deck insert comprises:

a discharge passage having a ceiling and terminating at a dischargeopening;

a first chamber tangent to the discharge passage to receive a firstblade that rotates about a first axis;

a second chamber tangent to the discharge passage and adjacent thedischarge opening to receive a second blade that rotates about a secondaxis; and

a divider wall between the first chamber and the second chamber.

27. The mower of definition 26, wherein the first chamber has a firstupper surface scrolling about the first axis and feeding into thedischarge chute and wherein the second chamber has a second uppersurface scrolling about the second axis and feeding into the dischargepassage at a height below an adjacent portion of the ceiling of thedischarge passage.

28. The mower of definition 26 further comprising an opening extendingthrough the divider wall between the first chamber and the secondchamber.

29. The mower of definition 1, wherein the second interior profilecomprises a ceiling, the ceiling comprising a drag reducing surfacetreatment.

30. The mower of definition 29, wherein the drag reducing surfacetreatment comprises dimples.

31. The mower of definition 29, wherein the drag reducing surfacetreatment comprises grooves.

32. The mower of definition 1, wherein the deck insert comprises aplurality of modules mounted adjacent to one another and to the deck.

33. The mower of definition 32, wherein each of the plurality of modulescorresponds to a chamber of the deck insert, each module to extend abovea rotatable blade.

34. The mower of definition 1, wherein the deck insert comprises a deckinsert module comprising a body comprising:

a first side portion that forms a side of a discharge passage;

a second curved side portion extending from the first side portion; and

a scrolling surface above the first side portion and the second curvedside portion.

35. The mower of definition 1, wherein the second interior profilecomprises deflectors to direct grass towards ground.

36. The mower of definition 1, wherein the deck insert extends outwardlybeyond an outer surface of the deck to form a bumper.

37. The mower of definition 36, wherein the deck comprises a loweroutwardly extending rim and wherein the insert extends beneath andaround the lower outwardly extending rim.

38. The mower of definition 36, wherein the deck comprises a downwardlyextending wall having an opening and wherein the insert horizontallyextends through the opening outwardly beyond the outer surface of thedeck to form the bumper.

39. The mower of definition 1, wherein the deck insert snaps under andabout a lower edge of the deck.

40. The mower of definition 1, wherein the deck comprises a deck ceilingover the underside cavity and wherein the deck insert extends from theunderside cavity through the deck ceiling.

41. The mower of definition 40, wherein the deck insert comprises a deckinsert ceiling above the deck ceiling.

42. The mower of definition 40, wherein the second interior profile ofthe deck insert comprises a discharge passage having a discharge passageceiling, wherein at least a portion of the discharge passage ceilingextends above the deck ceiling.

43. The mower of definition 1, wherein the deck comprises a sidedischarge opening and a rear bagging opening and wherein the deck insertextends across and closes at least one of the side discharge opening andthe rear bagging opening.

44. The mower of definition 1, wherein the deck insert comprises apolymeric body encasing at least one metallic insert.

45. The mower of definition 1 further comprising:

a spindle extending through the deck and through the deck insert tosupport a blade; and

a retainer about the spindle, wherein the deck insert is capturedbetween the retainer and the deck, about the spindle.

46. The mower of definition 1, wherein the deck comprises a non-metallicbody encapsulating a metal insert.

47. A deck insert for a mower having a mower deck having an undersidecavity with a first interior profile, the deck insert comprising:

a body to be mounted within the underside cavity, the body having a deckinsert interior with a second interior profile different than the firstinterior profile.

48. The deck insert of definition 47, wherein the deck insert is shapedso as to be horizontally spaced from interior side surfaces of the deckwhen mounted to the deck.

49. The deck insert of definition 47, wherein deck insert is shaped soas to be vertically spaced from upper interior surfaces of the deck whenmounted to the deck.

50. The deck insert of definition 47, wherein the first interior profilecomprises upper interior deck surfaces having a first shape and whereinthe second interior profile has upper interior deck insert surfaceshaving a second shape different than the first shape.

51. The deck insert of definition 47, wherein the deck comprises alinear sidewall and wherein the deck insert comprises a plurality ofconcave side walls to extend along the linear sidewall and face awayfrom the linear sidewall when the deck insert is mounted to the deck.

52. The deck insert of definition 47, wherein the deck insert is formedfrom a material selected from a group of materials consisting of one ormore polymers, fiberglass, metals, organic materials and composites, inthe form of a coating, laminate, layer or foam.

53. The deck insert of definition 47, wherein the deck defines the firstdischarge opening for the underside cavity and where the deck insertdefines a second discharge opening for the deck insert interior, thesecond discharge opening being smaller than the first discharge opening.

54. The deck insert of definition 47, wherein the second interiorprofile comprises a circular chamber having sidewalls to extendpartially across the first discharge opening when the deck insert ismounted to the deck.

55. The deck insert of definition 47, wherein the first interior profilecomprises a first linear side and a second pointed side opposite thefirst linear side and wherein the second interior profile comprises aplurality of circular blade chambers and a curved discharge passagealong the plurality of blade chambers and along the second pointed sidewith the deck insert forming both opposite sides of the curved dischargepassage.

56. The deck insert of definition 47, wherein the first interior profilecomprises a first linear side and a second pointed side opposite thefirst linear side and wherein the second interior profile comprises aplurality of circular blade chambers and an angled discharge passagealong the plurality of blade chambers and along the second pointed sidewith the deck insert forming both opposite sides of the angled dischargepassage.

57. The deck insert of definition 47, wherein the second interiorprofile of the deck insert comprises:

a discharge passage having a ceiling and terminating at a dischargeopening;

a first chamber tangent to the discharge passage to receive a firstblade rotates about a first axis, the first chamber having a first uppersurface; and

a second chamber tangent to the discharge passage and adjacent thedischarge opening to receive a second blade that rotates about a secondaxis, the second chamber having a second upper surface scrolling aboutthe second axis and feeding into the discharge passage at a height belowan adjacent portion of the ceiling of the discharge passage.

58. The deck insert of definition 57, wherein the discharge openingcircumferentially extends at least 75 degrees about the second axis.

59. The deck insert of definition 57, wherein the height of the secondupper surface feeding into the discharge passage is at least 0.5 inchesbelow the adjacent portion of the ceiling of the discharge passage.

60. The deck insert of definition 57, wherein the height of the secondupper surface feeding into the discharge passage is at least 1 inchbelow the adjacent portion of the ceiling of the discharge passage.

61. The deck insert of definition 57, wherein the second upper surfaceterminates at a step below the adjacent portion of the ceiling of thedischarge passage.

62. The deck insert of definition 57, wherein the second upper surfacehas a drop of at least 1 inch during an arc of 240 degrees about thesecond axis.

63. The deck insert of definition 57 further comprising a third chambertangent to the discharge passage between the first chamber and thesecond chamber to receive a third blade that rotates about a third axis,the third chamber having a third upper surface scrolling about the thirdaxis and feeding into the discharge passage at a second height below anadjacent portion of the ceiling of the discharge passage and above thefirst height.

64. The deck insert of definition 57, wherein the first upper surfacefeeds into the ceiling of the discharge passage at a height of theceiling.

65. The deck insert of definition 57, wherein the first upper surfacescrolls about the first axis and feeds into the ceiling of the dischargepassage at a height of the ceiling.

66. The deck insert of definition 47, wherein the deck insert comprisesa deck insert module, the module consisting of a single opening and asingle scrolling surface.

While the preferred embodiments of the invention have been illustratedand described, it will be appreciated that various changes can be madetherein without departing from the spirit and scope of the invention.For example, although different example embodiments may have beendescribed as including one or more features providing one or morebenefits, it is contemplated that the described features may beinterchanged with one another or alternatively be combined with oneanother in the described example embodiments or in other alternativeembodiments. One of skill in the art will understand that the inventionmay also be practiced without many of the details described above.Accordingly, it will be intended to include all such alternatives,modifications and variations set forth within the spirit and scope ofthe appended claims. Further, some well-known structures or functionsmay not be shown or described in detail because such structures orfunctions would be known to one skilled in the art. Unless a term isspecifically and overtly defined in this specification, the terminologyused in the present specification is intended to be interpreted in itsbroadest reasonable manner, even though it may be used in conjunctionwith the description of certain specific embodiments of the presentinvention.

What is claimed is:
 1. A mower comprising: a deck comprising anunderside cavity with a first interior profile; and a deck insertmounted within the underside cavity, the deck insert having a deckinsert interior with a second interior profile different than the firstinterior profile.
 2. The mower of claim 1, wherein the deck insert hasan outer profile, wherein portions of the outer profile are horizontallyspaced from interior side surfaces of the deck.
 3. The mower of claim 1,wherein the deck insert has an outer profile, wherein portions of theouter profile are vertically spaced from upper interior surfaces of thedeck.
 4. The mower of claim 1, wherein the first interior profilecomprises upper interior deck surfaces having a first shape and whereinthe second interior profile has upper interior deck insert surfaceshaving a second shape different than the first shape.
 5. The mower ofclaim 1, wherein the deck is metallic and wherein the deck insert isformed from a material selected from a group of materials consisting ofone or more polymers, fiberglass, metals, organic materials andcomposites in the form of a coating, layer, laminate or foam.
 6. Themower of claim 1, wherein the deck defines a first discharge opening forthe underside cavity and where the deck insert defines a seconddischarge opening for the deck insert interior, the second dischargeopening being geometrically different than the first discharge opening.7. The mower of claim 1, wherein the first interior profile comprises afirst linear side and a second pointed side opposite the first linearside and wherein the second interior profile comprises a plurality ofcircular blade chambers and a curved discharge passage along theplurality of blade chambers and along the second pointed side with thedeck insert forming both opposite sides of the curved discharge passage.8. The mower of claim 1, wherein the second interior profile of the deckinsert comprises: a discharge passage having a ceiling and terminatingat a discharge opening; a first chamber tangent to the discharge passageto receive a first blade that rotates about a first axis, the firstchamber having a first upper surface and feeding into the dischargepassage and a second chamber tangent to the discharge passage andadjacent to the discharge opening to receive a second blade that rotatesabout a second axis, the second chamber having a second upper surfacescrolling about the second axis and feeding into the discharge passageat a height below an adjacent portion of the ceiling of the dischargepassage.
 9. The mower of claim 1, wherein the second interior profilecomprises a ceiling, the ceiling comprising a drag reducing surfacetreatment.
 10. The mower of claim 1, wherein the deck insert comprises aplurality of modules mounted adjacent to one another and to the deck.11. The mower of claim 1, wherein the second interior profile comprisesdeflectors to direct grass towards ground.
 12. The mower of claim 1,wherein the deck insert extends outwardly beyond an outer surface of thedeck to form a bumper.
 13. The mower of claim 12, wherein the deckcomprises a lower outwardly extending rim and wherein the insert extendsbeneath and around the lower outwardly extending rim.
 14. The mower ofclaim 13, wherein the deck comprises a downwardly extending wall havingan opening and wherein the insert horizontally extends through theopening outwardly beyond the outer surface of the deck to form thebumper.
 15. The mower of claim 1, wherein the deck insert snaps underand about a lower edge of the deck.
 16. The mower of claim 1, whereinthe deck comprises a deck ceiling over the underside cavity and whereinthe deck insert extends from the underside cavity through the deckceiling.
 17. The mower of claim 1, wherein the deck comprises a sidedischarge opening and a rear bagging opening and wherein the deck insertextends across and closes at least one of the side discharge opening andthe rear bagging opening.
 18. The mower of claim 1, wherein the deckinsert comprises a polymeric body encasing at least one metallic insert.19. The mower of claim 1 further comprising: a spindle extending throughthe deck and through the deck insert to support a blade; and a retainerabout the spindle, wherein the deck insert is captured between theretainer and the deck, about the spindle.
 20. The mower of claim 1,wherein the deck comprises a non-metallic body encapsulating a metalinsert.